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 COSMOSWorks analysis
capabilities are available in the following bundle configurations.
Shell Analysis |
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Assemblies
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Composites |
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stand alone |
stand alone |
stand alone |
Glossary
of Simulation and Analysis Terms
- Fluid Flow Simulation - fluid flow simulation software
provides you insight into the physical dynamics of parts or assemblies
related to the flow of gas, flow of liquid, heat transfer, and forces
on immersed or surrounding solids. When you do a fluid-flow analysis,
you need to analyze the empty space within or around the model. Traditionally,
you use the cavity command to generate this negative geometry. In COSMOSFloWorks,
there is no need to create negative geometry. COSMOSFloWorks detects
the “empty” space in SolidWorks assemblies as the fluid region by itself
and distinguishes automatically between fluid and various solid areas.
Once you've completed your SolidWorks model, all you have to do is click
on the COSMOSFloWorks button to run your fluid flow simulation. No negative
geometry. No data transfer. No hassle. Powerful. Recommended for all
design engineers interested in validating their designs, COSMOSFloWorks
is a powerful fluid flow simulation tool providing fundamental fluid
flow analysis capabilities through new functionality such as porous
media, mixing of multiple fluids, conjugated heat transfer, and fan
curves in addition to advanced postprocessing capabilities such as Lagrangian
particle tracking and animation.
- Linear Static Analysis - Linear static analysis
software allows engineers to test different load conditions and their
resulting stresses and deformation. Knowing how a design will perform
under different conditions allows engineers to make changes prior to
physical prototyping, thus saving both time and money.
- Optimum Analysis - The word optimum means "best
or most favorable" in the English dictionary. To design engineering
professionals, an optimum design would be one that saves material and
does not break or overheat in its normal course of operation during
its life cycle. In the process of coming up with an optimum design,
a design engineering professional normally would go through a few series
of prototypes, which may incorporate lab or field-testing and some intuition.
- Analysis Translators - allow design engineering
professionals to easily share files between COSMOS and most other analysis
software programs.
- Fatigue Analysis - Parts and structures subjected
to cyclic mechanical and thermal loads will suffer from fatigue. Whether
you design engine parts or bridges, the Fatigue module can help you
predict how fatigue will affect the overall life of the product, and
identify the areas that may be critically damaged. To make the modeling
process faster and easier, you can consider stresses associated with
load conditions previously calculated through load cases or time-steps.
You may also modify the stored stresses in the standard database or
specify your own stresses to create the most realistic model for fatigue
analysis.
- Advanced Dynamics Analysis - The Advanced Dynamics
module, performs linear dynamic analysis of systems subject to all types
of dynamic excitations. The effect of loads due to earthquake excitation
and other complex dynamic conditions can be considered easily and accurately.
The program performs analysis on the basis of the normal mode method,
which requires natural modes and frequencies to be calculated a priori.
- Thermal Analysis - Thermal analysis allows design
engineers and analysis experts to perform heat transfer analysis of
simple models or complex 3D assemblies. Thermal analysis allows engineers
to study temperature changes encountered by mechanical parts and structures
in their normal operating conditions, which influence a product's performance.
- Frequency Buckling Analysis - Frequency and buckling
analysis is a critical component of a design, but is often overlooked.
Inherent vibration modes in structural components or mechanical support
systems can shorten equipment life and cause unexpected failures. Frequency
and buckling analysis allows design engineers and analysis experts to
evaluate natural frequencies or critical buckling loads and their corresponding
mode shapes of their SolidWorks models.
- Drop Test Analysis - The Drop Test feature in COSMOSWorks
helps engineers design products that are likely to be dropped. It indicates
the effect of impact on SolidWorks models when dropped from various
heights. Performing drop tests virtually on the computer provides a
low cost alternative to physical drop testing. COSMOSWorks is the only
mainstream analysis program to offer drop test functionality.
- Non-Linear Analysis - In the real world, most engineering
problems contain some kind of nonlinear effect. In the past it was impractical
to solve these with nonlinear algorithms because of the limitations
of existing analysis software programs. Analysts were forced to use
simplified linear approximations as a faster and more efficient alternative,
however, the resulting solutions were not always valid.
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